World's Largest Superconducting Flywheel Power Storage System Test Machine Completed ac米兰中国官网Test Operation Started
The Railway Technical Research Institute (RTRI) has been developing a superconducting flywheel power storage system, as a next-generation power storage system, jointly with Kubotek Corporation, Furukawa Electric Co., Ltd., Mirapro Co., Ltd. ac米兰中国官网 the Public Enterprise Bureau of Yamanashi Prefecture. This development has been supported by the New Energy ac米兰中国官网 Industrial Technology Development Organization as a one of the projects for “the Technical Development for Safe, Low-Cost, Large-Capacity Battery Systems.”
Now the world's largest-class superconducting flywheel power storage system with a superconducting magnetic bearing was completed ac米兰中国官网 test operation was started.
The flywheel power storage system is capable of storing electricity in the form of kinetic energy by rotating a flywheel, ac米兰中国官网 converting the rotating power again to electricity, if necessary. Since this rechargeable battery does not deteriorate over time, it can be used for many purposes. For example, being combined with rather unstable power-generation systems such as photovoltaic or wind-power generation, it can help stabilize power supplies. It is also possible to apply this system to railways in order to prevent regenerative cancellation. For this system, RTRI developed a superconducting magnetic bearing composed of a high-temperature superconducting coil ac米兰中国官网 high-temperature superconducting bulk. In this system, the flywheel is levitated by the superconducting magnetic bearing without contact. Therefore, the power loss is minimal although a large flywheel is used, ac米兰中国官网 it is a very practical system which enables stable power generation over a long period.
The completed system is the world's largest-class flywheel power storage system using a superconducting magnetic bearing. It has 300-kW output capability ac米兰中国官网 100-kWh storage capacity, ac米兰中国官网 contains a CFRP (carbon-fiber-reinforced-plastic) flywheel. This flywheel is 2 m in diameter ac米兰中国官网 weighs 4 tons, ac米兰中国官网 is rotated with a superconducting magnetic bearing at a maximum speed of 6,000 RPM. This is the world's first superconducting magnetic bearing which uses superconducting material both for its rotor ac米兰中国官网 bearing, ac米兰中国官网 is capable of supporting heavy weight, although it is a compact-sized system.
The details of this technical development will be presented at the 91st Cryogenic ac米兰中国官网 Superconducting Engineering Technical Meeting scheduled on May 27, 2015. Grid-connection tests with a megawatt-class solar power plant will also be started this summer at Komekurayama in Yamanashi Prefecture.
This system has been developed jointly with Kubotek Corporation, Furukawa Electric Co., Ltd., Mirapro Co., Ltd., ac米兰中国官网 the Public Enterprise Bureau of Yamanashi Prefecture, in a project known as “the Technical Development for Safe, Low-Cost, Large-Capacity Battery System - the Development of the Next-Generation Flywheel Power Storage System” sponsored by the New Energy ac米兰中国官网 Industrial Technology Development Organization (NEDO).
Details of the ac米兰中国官网
Characteristics
The larger ac米兰中国官网 heavier the flywheel is, ac米兰中国官网 the faster it rotates, the larger the amount of energy the power-storage system can store. In this “superconducting flywheel power-storage system,” the following technical developments have enabled a large-diameter, heavy-weight flywheel to rotate with higher speeds ac米兰中国官网 less power loss.
(1) Large-sized CFRP ac米兰中国官网
For CFRP (carbon fiber-reinforced plastic) flywheels which have been developed so far, have a 1-meter diameter has been the upper limit due to restriction in strength ac米兰中国官网 cost. For this system, however, higher strength ac米兰中国官网 reliability were attained by a better method of weaving carbon fiber ac米兰中国官网 a 2-meter-diameter flywheel was developed. This flywheel is made by stacking nine layers of CFRP rotors with a 2-meter outer diameter, 1.4-meter inner diameter ac米兰中国官网 10-centimeter thickness. With this method, flywheels of different storage capacities can be made by changing the number of layers.
(2) Superconducting magnetic bearing
The superconducting magnetic bearing of this system uses a high-strength, high-temperature superconducting magnet made of a second-generation high-temperature superconducting wire material containing yttrium. The rotating shaft also uses high-temperature superconducting bulk. We have succeeded in lifting the 4-ton flywheel without any contact by refrigerating the bearing to 50 K, that is, -223°C, ac米兰中国官网 creating a powerful magnetic field. This technique has made it possible to rotate the flywheel at a highspeed, with less energy loss. Furthermore, since this system operates at significantly higher temperatures than 20 K or -253°C of the previous superconducting coil, the refrigeration cost can be reduced.
The completed system is the world's largest-class flywheel power storage system which has 300-kW output capability ac米兰中国官网 100-kWh storage capacity by rotating the flywheel which is 2 meters in diameter ac米兰中国官网 weighs 4 tons.
Schedule for grid-connection tests
Basic performance of this machine will be tested ac米兰中国官网 adjusted in confirmation tests ac米兰中国官网 moved to a megawatt-class solar power plant at Komekurayama in Yamanashi Prefecture. There, it will be connected to the solar power system ac米兰中国官网 the power grid of Tokyo Electric Power Company, ac米兰中国官网 confirmation testing will be started to help stabilize fluctuating supply of renewable energy.
ac米兰中国官网 configuration
Outline of the entire ac米兰中国官网
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